Substrate reduction using a glucosamine analogue in Drosophila melanogaster and mouse models of Sanfilippo syndrome

Mucopolysaccharidosis (MPS) types III A and C are inherited neurodegenerative disorders resulting from the lack of a specific enzyme involved in heparan sulfate (HS) catabolism, leading to the accumulation of partially-degraded HS fragments. At present, there are no approved treatments and death is commonly in the second decade of life. Several therapies have undergone pre-clinical evaluation for these conditions, including substrate reduction therapy, with the most studied compound of this class being the isoflavone genistein. However, findings from a Phase III clinical trial demonstrated that high dose oral genistein did not significantly improve neurodevelopmental outcomes in patients with MPS III (Sanfilippo syndrome). Here, we have tested an N-acetylglucosamine analogue, 4-deoxy-N-acetylglucosamine peracetate, as a novel substrate reduction therapy for HS-storing lysosomal storage disorders such as MPS III. Treatment with this compound significantly reduced HS levels in cultured MPS IIIA patient and mouse fibroblasts in a time- and dose-dependent manner. MPS IIIC Drosophila fed 4-deoxy-N-acetylglucosamine peracetate contained significantly less HS relative to those raised on control diets. Likewise, improvements in HS load within the MPS IIIA mouse brain suggests that the compound crossed the blood-brain barrier after oral administration. Although long-term studies are needed, these findings indicate that 4-deoxy-GlcNAc peracetate may be beneficial in slowing the accumulation of HS and may represent a novel substrate reduction therapeutic for MPS III and potentially other HS-storing disorders.